For Official Use Only - Central Ground Water...
Transcript of For Official Use Only - Central Ground Water...
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For Official Use Only
CENTRAL GROUND WATER BOARD MINISTRY OF WATER RESOURCES
GOVERNMENT OF INDIA
GROUND WATER BROCHURE KARIMNAGAR DISTRICT, ANDHRA PRADESH
SOUTHERN REGION HYDERABAD
September 2013
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CENTRAL GROUND WATER BOARD MINISTRY OF WATER RESOURCES
GOVERNMENT OF INDIA
GROUND WATER BROCHURE
KARIMNAGAR DISTRICT, ANDHRA PRADESH (AAP-2012-13)
BY
R.V.V. SAGAR
SCIENTIST-D
SOUTHERN REGION BHUJAL BHAWAN,
GSI Post, Bandlaguda NH.IV, FARIDABAD -121001
Hyderabad-500068 HARYANA, INDIA
Andhra Pradesh Tel: 0129-2418518
Tel: 040-24225201 Gram: Bhumijal
Gram: Antarjal
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GROUND WATER BROCHURE KARIMNAGAR DISTRICT, ANDHRA PRADESH
CONTENTS DISTRICT AT A GLANCE
1. INTRODUCTION
2. RAINFALL
3. GROUND WATER SCENARIO
4. WATER LEVEL
5. GROUND WATER RESOURCES
6. GROUND WATER QUALITY
7. STATUS OF GROUND WATER DEVELOPMENT
8. GROUND WATER MANAGEMENT STRATEGY
9. GROUND WATER DEVELOPMENT
10. WATER CONSERVATION & ARTIFICIAL RECHARGE
11. RECOMMENDATIONS
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KARIMNAGAR DISTRICT AT A GLANCE 1. GENERAL FEATURES: i. Location : North Latitude 180 00' and 190 00'
: East Longitude 780 40' and 800 00' ii. Geographical area : 11823 Sq kms iii. Dist head quarters : Karimnagar iv. No. of Revenue. Mandals : Fifty Seven (57) v. No. of Revenue. villages : One thousand fifty eight (1058). vi. Population (2011) : a) Total - 38, 11,738
b) Urban- 9,94, 231 c) Rural- 28,17,507
vii. Population density : 322/ sq.km 2. RAINFALL(2012 in mm): i. Normal Annual Rainfall : 1521.0 Monsoon Rainfall : 83% Non-monsoon Rainfall : 11% ii. Cumulative departure for : 32% to 73% the last 5 yrs from normal 3. LAND USE (2012) (Area in ha) i. Forest : 7,59,438
ii. Barren and uncultivable land : 88,887 iii. Cultivable waste : 14,570 iv. Current fallows : 1,02,211 v. Net area sown : 5,31,538 4. IRRIGATION (2012) (Area in ha) i. Area irrigated under canals : 78,571 ii. Area irrigated under tanks : 26,697 iii. Area irrigated under dug wells : 1,96,067 iv. Area irrigated under tube wells : 52,898 v. Net area irrigated : 3,54,343 vi. Gross area irrigated : 5,85,992 5. GEOLOGY Granites and Gneisses, Sandstone, Limestone, Shale, Quartzite’s, Clays 6. GROUND WATER Exploration by CGWB a) Number of wells drilled : 21 EW,5 OW,PZ-44
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b) Aquifer Properties i) Monitoring
Dug wells : 24 Piezometers : 51
Depth to water level
Pre-monsoon (min-max) : 1.63 to 24.67 m.bgl Post monsoon (min-max) : 1.22 to 13.82 m bgl 7. GROUND WATER RESOURCES (MCM)
i. Net annual Ground water Resources : 1458.75 ii. Net Annual Ground water Draft : 696.20
iii. Balance Ground water resource : 762.55 iv. Stage of Ground water Development : 48%
8. GROUND WATER DEVELOPMENT CATEGORY
i. Safe (
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GROUND WATER BROCHURE KARIMNAGAR DISTRICT, ANDHRA PRADESH
1.0 INTRODUCTION
Karimnagar district with a total geographical area of 11,823 sq km is one of the ten
Telangana districts of Andhra Pradesh. The district is mainly agrarian and agriculture is the
main stay of the population. Population density, which was 64 persons per sq km during
1901, has risen to 295 people per sq km as per 2001 census. This has led to stress on
available land and the size of landholdings has decreased considerably. The district forms
part of the Godavari river basin. The river Godavari, the largest river in the peninsular India
enters the district at Kandukurthi village runs for a distance of 283 km forming the northern
and eastern boundary of the district and leaves the district at Muknur village (Fig 1). The
entire district is mainly drained by Maneru river, a tributary of river Godavari. The district is
divided into 85 minor basins.
Fig. 1: Administrative Divisions of Karimnagar District, A.P
The total cropped area of 533604 ha an area of 356418 ha is having irrigation
facilities. 25.17% of the irrigated area is covered by surface water sources, 64.75% of the
area is irrigated through ground water sources and the remaining by other sources. The main
crops raised are Rice, maize, green gram, chillies, turmeric, cotton and ground nut. Central
Ground Water Board has covered the entire district through systematic hydrogeological
surveys by 1990.
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2.0 RAINFALL
The average annual rainfall of the district is 950 mm, which ranges from nil rainfall in
December to January to 250 mm in July. July and august are the wettest months of the year.
The mean seasonal rainfall distribution is 792 mm in southwest monsoon (June-September),
101 mm in northeast monsoon (Oct-Dec), nil rainfall in winter (Jan-Feb) and 43mm in
summer (March–May). The percentage distribution of rainfall, season-wise, is 83% in
southwest monsoon, 11 % in northeast monsoon, 0.6 % in winter and 5.4 % in summer. The
mean monthly rainfall distribution is given in Fig.2.
Fig.2 Mean monthly rainfall distribution in Karimnagar district
The annual and seasonal rainfall distribution with its departure from mean along with
percentage distribution year-wise is given in Table 1. The data is presented in Figure 3. The
annual rainfall ranges from 643 mm in 2009 to 1645 mm in 2005. The annual rainfall
departure ranges from -32 % in 2009 and to 73 % in 2005. The southwest monsoon rainfall
contributes about 83 % of annual rainfall. It ranges from 486 mm in 2009 to 1223 mm in
2010. The year 2002 and 2009 experienced drought conditions in the district as the annual
rainfall recorded in these two years is 30% and 32% less than the long period average (LPA)
respectively. The cumulative departure of annual rainfall from LPA is presented in Figure 2.
It indicates that, the rainfall departure, as on 2011 is positive i.e. 27%, showing rainfall
excess.
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Table -1 MONTHLY RAINFALL DISTRIBUTION (1999-2011)
SOURCE: INIDIA METEOROLOGICAL DEPARTMENT AND DIRECTORATE OF ECONOMICS AND STATISTICS
Fig.3 Rainfall distribution and departure from mean
Sl
No
YEAR
AN
NU
AL
SW
M
NE
M
WIN
TE
R
SU
MM
ER
SW
M(%
)
NE
M(%
)
WIN
TE
R (
%)
SU
MM
ER
(%
)
DE
P F
RO
M
LP
A (
%)
1 1999 785.0 712.0 30.0 5.0 38.0 90.70% 3.82% 0.64% 4.84% -
17%
2 2000 974.0 922.0 5.0 9.0 38.0 94.66% 0.51% 0.92% 3.90% 3%
3 2001 743.9 585.0 105.
9 5.0 48.0 78.64% 14.24% 0.67% 6.45% -
22%
4 2002 661.7 547.7 45.0 38.0 31.0 82.77% 6.80% 5.74% 4.69% -
30%
5 2003 723.4 590.5 109.
0 3.0 20.9 81.63% 15.07% 0.41% 2.89% -
24%
6 2004 871.3 574.7 87.8 114.4 94.4 65.96% 10.08% 13.13% 10.83% -8%
7 2005 1644.
6 1215.
0 216.
5 89.4 123.7 73.88% 13.16% 5.44% 7.52% 73%
8 2006 1511.
0 1230.
7 108.
7 0.0 171.6 81.45% 7.19% 0.00% 11.36% 59%
9 2007 946.5 850.2 48.6 2.0 45.7 89.83% 5.13% 0.21% 4.83% 0%
10 2008 897.6 769.1 15.1 1.2 112.2 85.68% 1.68% 0.13% 12.50% -6%
11 2009 642.6 486.1 122.
9 0.0 33.6 75.65% 19.13% 0.00% 5.23% -
32%
12 2010 1454.
4 1222.
5 196.
1 18.3 17.5 84.06% 13.48% 1.26% 1.20% 53%
13 2011 746.9 674.4 6.9 22.4 43.2 90.29% 0.92% 3.00% 5.78% -
21%
Long Period Average 949.5 791.9
101.3 5.6 50.7
83.40%
10.66% 0.59% 5.34%
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3.0 GROUND WATER SCENARIO
3.10 Hydrogeology
Ground water occurs in all the geological formations in the district. The major rock types
occurring in the district are granites, gneisses, sandstone, limestone, shale, quartzite’s etc. The
occurrence and movement of the ground water is a consequence of a finite combination of
topographical, climatological, hydrological, geological, and structural and pedagogical factors,
which together form integrated dynamic system. Hydrogeological conditions of the district are
shown on Fig 4.
FIG.4 Hydrogeology - Karimnagar district
3.2 Archaean and Dharwar Group of Rocks
These rock types occupy about two thirds area of the district. The Ground water occurs
under unconfined conditions in weathered zone and under semi confined conditions in the
fractures and fissures. The shallow aquifers tapping the weathered zone have very limited yields in
the non-command areas and limited to moderate yields in the command areas. The yield ranges
from 40 to 150 m3/day, storage coefficient varies from 0.001 to 0.019 and specific capacity ranges
from 0,106 to 0.159 m3/min/m dd. The deeper fractured aquifer is developed through bore wells.
The fractured aquifers are potential up to 100 m depth in general, beyond 100 m the occurrence of
fractures decreases drastically; potential fractures are encountered only along the lineaments and
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at other favourable location. The discharge of the successful bore wells range from 0.5 lps to 3 lps.
The transmissivity values range from 3.65 to 48 m2/day.
3.3 Ground Water in Pakhals and Sullavais:
The Pakhals and Sullavais are the oldest sedimentary rocks known as Purana formations
occur in the northern part of the district. They comprise mainly quartzites, sandstones and
limestones. They are hard, compact and possess limited primary porosity. However, subsequent
fracturing and fissuring followed by weathering enabled them to form aquifers locally. The yields
in the limestone are about 45 m3/day and in sand stone it from 50 to 75 m3/day. In general they
form poor aquifers.
3.4 Ground Water in Gondwanas:
They are the youngest sedimentary rocks and occupy 18 percent of the district area in the
northwestern part. The Gondwanas are represented by Talchir boulder bed, shale and sand stone,
Barakar sand stones, sand stones and clays of Barren measures, Ferruginous sand stones and clays
of Kamthi series, gritty sand stones and clays of Maleri series, Kota formation comprising of
shales with intercalated shale’s, fine to medium grained sand stone and lime stone and Chikiala
formations represented by ferruginous sand stone and conglomerates associated with clay and
shale bands.
3.5 Shallow Phereatic Aquifers
The Talchir boulder bed is favourable for sinking open wells and the yields range from 15
to 25 m3/day. The yields of the dug wells in Barakars and Barren measures vary from 40 to 90
m3/day. The shallow bore wells tapping Kamthi sand stones have yields of 10m3/day and the
transmissivity is about 70 m2/day. The shallow bore wells tapping the Kota sand stones have
discharge of 5 to 7 m3/Hr for draw down of 10 m and the transmissivity varies from 25 to 30
m2/day.
3.6 Deeper Confined Gondwana Aquifers
Central Ground Water Baord has proved the existence of deeper aquifers in the Gondwana
formations by constructing test wells. Deeper aquifers are not encountered in Barakar sand stones.
Barren measures have deeper aquifer with discharge ranging from 7.9 to 50 m3/day. Potential
zones in these formations at places may be due to encountering of fracture planes. Kamthi sand
stones have potential aquifers at deeper depths upto 300 m. the discharge vary from 1638 m3/day
to 4 197 m3/day. The transmissivity values are ranging from 49.9 to 668 m2/day. Deeper aquifers
in the Kota formation are of poor or limited yields varying upto 26 m3/day. Deeper aquifers in the
Maleri formation occur upto a depth of 206 m with discharges varying from 1143 to 1259 m3 /day
and the transmissivity values range from 28 to 50 m2/day.
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3.7 Ground Water in Alluvium
Alluvium comprising sand, silt and clay occurs along the banks of the river Godavari down
to a maximum depth of 20 m bgl near Mahadevpur. The depth of filter points varies from 10 to 20
m bgl and sustains continuous pumping. The sandy aquifer extending down to a depth of 10 to 13
m bgl on either side of Maneru River at few places have yields ranging from 90 to 180 m3/day.
4.0 WATER LEVEL
4.1 Pre-monsoon:
The depth to water levels during pre-monsoon range from 1.63 to 24.67 m.bgl. The
shallow water level of
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Fig.5 Depth to water level during post-monsoon 2012 in Karimnagar district
4.3 Water Level Fluctuation
The rise in water level between pre and post monsoon period of 2012 is more than 4 m in majority
area of the district. Rise in water level between 2-4 m in observed in central and western parts of
the district (Fig 6). Fall in water level between 2-4 and more than 4 are seen as isolated patches in
the eastern and western parts of the district.
Fig.6 water level Fluctuation during 2011 in Karimnagar district
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PreMonsoon PostMonsoon Annual
S NO location
Data
Points
Rise
(m/year)
Fall
(m/year)
Data
Points
Rise
(m/year)
Fall
(m/year)
Data
Points
Rise
(m/year)
Fall
(m/year)
1 2 3 4 5 6 7 8 9 10 11
2 Metpalli2 7 5 52 0.5723
3 Katlapur 9 7 67 0.4548
4 Chepyal 7 5 52 0.946
5 Racherla boppapur 9 8 80 3.177
6 Vadloor begampet 9 8 75 1.857
7 Kothapet1 8 4 54 0.9067
8 Desaipet 8 7 64 1.4239
9 Veenavanka 8 7 65 0.6587
10 Vangara 8 7 78 1.3876
11 Karimnagar1 9 8 96 0.294
12 Peddapalli1 5 6 62 0.5534
13 Mahadevpur 124 5 6 61 0.4411
14 Shankarpally - 47 6 6 60 0.8458
15 Shankarpally- 125 5 6 61 0.4824
16 Rudrangi 8 7 77 1.275
17 Siricilla 9 8 99 1.2943
18 Mahadevpur-70 7 6 71 0.6618
19 Jagtial 9 6 90 0.2866
20 Huzurabad1 9 7 87 0.4947
21 Kothapalli-1 19 0.3478 19 0.0665 164 0.8069
22 Dharmapuri-new 24 0.0494 28 0.0375 128 0.0168
23 Kataram -PZ 3 11 13 0.0759 45
24 Kataram -PZ 2 12 0.2097 14 0.0965 49 0.2127
25 Kataram-PZ1 10 12 0.0341 46
26 Manthani -PZ3 12 0.352 10 47
27 Manthani -PZ 2 13 0.1328 11 47
28 Manthini -PZ 1 13 0.2831 11 48 0.2203
29 Kaleswaram-PZ 1 12 0.1747 12 0.367 44
30 Vallamkuntla -PZ3 12 0.2107 12 0.0956 46
31 Vallamkuntla -PZ 2 11 12 0.9198 44
32 Sulthanabad -PZ 12 0.2168 12 0.3947 42
33 Ramagundam - PZ 12 0.1689 12 0.1679 44
34 Muktharam-PZ 13 0.0384 13 0.3974 51 0.1302
35 Kamanpur 4 3 12
36 Ramadugu -PZ 13 0.0255 14 0.1976 53 0.1223
37 Chigurumamidi-PZ 11 12 0.196 44
38 Yelakaturthy -PZ 11 12 0.3224 44
39 Mahadevpur1 17 0.0662 15 2.0387 66 0.6059
40 Kalwacherla 16 0.0627 20 0.0832 70 0.0893
41 Kothapally 16 0.105 19 0.0747 69 0.043
42 Manukonduru 17 0.0363 22 0.1463 78 0.0686
43 Mustafabad 31 0.0781 41 0.0723 272 0.0972
44 Gangadhara 7 9 34
45 Mustafanagar 18 0.0439 22 0.115 75 0.0173
46 Gollapalli1 22 0.039 28 0.0075 139 0.0298
47 Husnabad 13 0.0735 14 0.2932 51 0.1133
48 Buswapuram1 11 13 0.8074 44
49 Venkatapur 44 0.0271 43 0.0397 374 0.0701
50 Chillapalli 16 0.0017 32 0.0768 161 0.0569
51 Mohanraopet1 19 0.0243 22 0.0423 80 0.0014
52 Yelakaturti-new 9 12 0.4504 43
53 Huzurabad 14 0.1121 15 0.3426 56 0.252
54 Tadikal 20 0.2093 20 0.1742 79 0.2118
55 Yellareddypet 6 12 0.2332 41
56 Karimnagar 19 0.1199 20 0.3042 75 0.2077
57 Aruna konda-new 28 0.0368 29 0.0275 186 0.0277
58 Aruna konda-old 0 0 0
59 Kudurupaka-alt 18 0.1346 20 0.1706 75 0.1659
60 Garepalli 19 0.0535 25 0.0951 95 0.0364
61 Koyyuru2 19 0.1423 20 0.0032 77 0.0156
62 Osmannagar 12 0.0638 18 0.0571 83 0.0861
63 Mahadevpur 19 0.261 20 0.1442 77 0.1882
64 Peddapalli 26 0.14 32 0.1309 213 0.0043
65 Kothapet 18 0.0697 20 0.147 77 0.069
66 Yerraguntapalli 14 0.0818 15 0.015 58 0.0476
67 Jagityal-new 20 0.0042 21 0.0034 81 0.0106
68 Kolleda 18 0.0401 20 0.0492 78 0.0293
69 Metpalli1 11 13 0.0459 49 0.0496
LONG TERM WATER LEVEL TREND (1992-2011) , KARIMNAGAR DISTRICT
4.4 Long Term Water Levels:
Water level data of observation wells for period1993 to 2012, has been considered for long
term water level trend analysis. The detailed trend analysis is given in the Table-2.
Table-2- Long term Water Level Trend (1992-2011)
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5.0 GROUND WATER RESOURCES
Based on the Ground Water Estimation Committee (GEC-97) norms ground water
assessment was done in 2009. The mandala wise details are present in Table 3. Ground water
resource available is 1458.95 MCM in command area and non-command area of the district.
Ground water draft is 696.20 MCM in command and non-command areas respectively. The
ground water balance is 762.55 MCM in command and non-command areas respectively. Based
on the stage of ground water development and water level trend the villages and ground water
assessment units are categorized as described below. Overall, the district falls under Safe category
with a stage of development at 48%.
Table- 3: Assessment of Mandal Wise Dynamic Groundwater Resources of Karimnagar District, Andhra Pradesh [2008-2009] [in ha.m.]
Sl.No
Mandal C/
NC/ T
Net
an
nual
gro
und
w
ater
ava
ilab
ilit
y
Exi
stin
g g
ross
gr
oun
d w
ater
dra
ft
for
irri
gati
on
Exi
stin
g g
ross
GW
dr
aft
for
dom
esti
c an
d i
ndus
tria
l w
ater
su
pply
E
xist
ing
gro
ss
gro
und
wat
er d
raft
fo
r al
l us
es
[11
+12
]
Pro
vis
ion
for
dom
esti
c an
d
indu
stri
al r
equi
re-
men
t su
pply
to
2025
Net
GW
av
aila
bili
ty
for
futu
re i
rrig
atio
n
dev
elop
men
t
[10
-11-
14]
Sta
ge o
f g
roun
d w
ater
dev
elo
pmen
t
{(1
3/10
*100
)} [
%]
1 2 3 4 5 6 7 8 9 10
Bejjanki C 0 0 0 0 0 0 0
1 NC 2782 1777 60 1837 257 748 66 T 2782 1777 60 1837 257 748 66
Bheemadevarapally
C 0 0 0 0 0 0 0 2 NC 1647 1171 60 1231 251 225 75 T 1647 1171 60 1231 251 225 75
Boinapalli C 0 0 0 0 0 0 0
3 NC 1365 1018 96 1114 191 156 82 T 1365 1018 96 1114 191 156 82
Chandurthy C 0 0 0 0 0 0 0
4 NC 2642 1485 91 1576 169 988 60 T 2642 1485 91 1576 169 988 60
Chigurumamidi
C 0 0 0 0 0 0 0 5 NC 3032 1367 70 1437 201 1464 47 T 3032 1367 70 1437 201 1464 47
Choppadandi C 1061 556 22 578 123 382 54
6 NC 883 529 33 562 163 191 64 T 1944 1085 55 1140 286 573 59
Dharmapuri C 2930 556 86 642 173 2201 22
7 NC 172 423 23 446 23 0 259 T 3102 979 109 1088 196 2201 35
Dharmaram C 2821 948 21 969 135 1738 34
8 NC 504 220 7 227 24 260 45 T 3325 1168 28 1196 159 1998 36
Eligedu C 721 315 45 360 55 351 50
9 NC 94 82 4 86 14 -2 91 T 815 397 49 446 69 349 55
Elkathurthy C 428 175 8 183 43 210 43
10 NC 751 474 47 521 154 123 69 T 1179 649 55 704 197 333 60 Gambhiraopet C 0 0 0 0 0 0 0
-
11 NC 1715 961 186 1147 203 551 67 T 1715 961 186 1147 203 551 67
Gangadhara C 248 142 1 143 26 80 58
12 NC 1752 1202 54 1256 154 396 72 T 2000 1344 55 1399 180 476 70
Gollapally C 2174 835 67 902 125 1214 41
13 NC 76 26 5 31 5 45 41 T 2250 861 72 933 130 1259 41
Husnabad C 0 0 0 0 0 0 0
14 NC 3335 1909 109 2018 347 1079 61 T 3335 1909 109 2018 347 1079 61
Huzurabad C 1942 1231 36 1267 116 595 65
15 NC 252 208 19 227 35 9 90 T 2194 1439 55 1494 151 604 68
Ibrahimpatnam C 1960 671 30 701 118 1171 36
16 NC 287 131 14 145 36 120 51 T 2247 802 44 846 154 1291 38
Illanthakunta C 0 0 0 0 0 0 0
17 NC 2540 1426 78 1504 281 833 59 T 2540 1426 78 1504 281 833 59
Jagityal C 2802 1187 125 1312 411 1204 47
18 NC 56 18 4 22 4 34 39 T 2858 1205 129 1334 415 1238 47
Jammikunta C 3573 1985 36 2021 346 1242 57
19 NC 0 0 0 0 0 0 0 T 3573 1985 36 2021 346 1242 57
Julapalli C 890 385 25 410 96 409 46
20 NC 218 58 8 66 15 145 30 T 1108 443 33 476 111 554 43
Kamalapur C 1713 570 42 612 250 893 36
21 NC 298 159 13 172 35 104 58 T 2011 729 55 784 285 997 39
Kamanpur C 3345 296 979 1275 979 2070 38
22 NC 1476 274 42 316 47 1155 21 T 4821 570 1021 1591 1026 3225 33
Karimnagar C 1021 521 33 554 145 355 54
23 NC 1760 773 87 860 765 222 49 T 2781 1294 120 1414 910 577 51
Kataram C 0 0 0 0 0 0 0
24 NC 1642 212 74 286 96 1334 17 T 1642 212 74 286 96 1334 17
Kathalapur C 0 0 0 0 0 0 0
25 NC 2759 1437 66 1503 137 1185 54 T 2759 1437 66 1503 137 1185 54
Keshavapatnam C 2185 1650 41 1691 148 387 77
26 NC 839 483 25 508 57 299 61 T 3024 2133 66 2199 205 686 73
Kodimyal C 0 0 0 0 0 0 0
27 NC 1308 911 43 954 156 241 73 T 1308 911 43 954 156 241 73
Koheda C 0 0 0 0 0 0 0
28 NC 1961 1167 64 1231 232 562 63 T 1961 1167 64 1231 232 562 63
Konaraopet C 0 0 0 0 0 0 0
29 NC 2266 1114 56 1170 153 999 52 T 2266 1114 56 1170 153 999 52
Korutla C 4075 684 23 707 202 3189 17
30 NC 465 198 12 210 25 242 45
-
T 4540 882 35 917 227 3431 20
Mahadevpur C 0 0 0 0 0 0 0
31 NC 3658 406 94 500 125 3127 14 T 3658 406 94 500 125 3127 14
Mahamutharam C 0 0 0 0 0 0 0
32 NC 1274 133 56 189 85 1056 15 T 1274 133 56 189 85 1056 15
MallaharRao C 0 0 0 0 0 0 0
33 NC 2692 684 64 748 138 1870 28 T 2692 684 64 748 138 1870 28
Mallapur
C 2602 787 42 829 141 1674 32 34 NC 175 161 0 161 14 0 92 T 2777 948 42 990 155 1674 36
Mallial C 747 416 31 447 40 291 60
35 NC 1089 685 21 706 42 362 65 T 1836 1101 52 1153 82 653 63
Manakondur C 3016 1490 25 1515 173 1353 50
36 NC 1097 907 28 935 145 45 85 T 4113 2397 53 2450 318 1398 60
Manthani C 1498 214 82 296 131 1153 20
37 NC 893 238 62 300 62 593 34 T 2391 452 144 596 193 1746 25
Medipally C 1899 692 7 699 37 1170 37
38 NC 2191 750 52 802 64 1377 37 T 4090 1442 59 1501 101 2547 37
Metpalli C 1344 276 28 304 119 949 23
39 NC 747 340 29 369 46 361 49 T 2091 616 57 673 165 1310 32
Mustabad C 0 0 0 0 0 0 0
40 NC 1440 963 61 1024 191 286 71 T 1440 963 61 1024 191 286 71
Mutharam (Manthani)
C 224 97 17 114 39 88 51 41 NC 1116 301 49 350 94 721 31 T 1340 398 66 464 133 809 35
Odela C 1277 864 32 896 113 300 70
42 NC 651 368 9 377 67 216 58 T 1928 1232 41 1273 180 516 66
Peddapally C 2967 1530 152 1682 345 1092 57
43 NC 417 103 2 105 34 280 25 T 3384 1633 154 1787 379 1372 53
Pegadapally C 2093 878 25 903 145 1070 43
44 NC 0 0 0 0 0 0 0 T 2093 878 25 903 145 1070 43
Raikal C 5508 2349 81 2430 173 2986 44
45 NC 0 0 0 0 0 0 0 T 5508 2349 81 2430 173 2986 44
Ramadugu C 0 0 0 0 0 0 0
46 NC 2067 1163 65 1228 199 705 59 T 2067 1163 65 1228 199 705 59
Ramagundam C 2116 352 29 381 121 1643 18
47 NC 2437 379 127 506 192 1866 21 T 4553 731 156 887 313 3509 19
Saidapur C 0 0 0 0 0 0 0
48 NC 2025 1304 58 1362 183 538 67 T 2025 1304 58 1362 183 538 67
Sarangapur C 3128 742 56 798 124 2262 26
49 NC 0 0 0 0 0 0 0 T 3128 742 56 798 124 2262 26
-
Siricilla
C 0 0 0 0 0 0 0 50 NC 2484 1485 81 1566 446 553 63 T 2484 1485 81 1566 446 553 63
Srirampur C 1435 527 38 565 114 794 39
51 NC 762 212 20 232 41 509 30 T 2197 739 58 797 155 1303 36
Sulthanabad C 1431 995 45 1040 176 260 73
52 NC 621 401 31 432 46 174 70 T 2052 1396 76 1472 222 434 72
Thimmapur C 0 0 0 0 0 0 0
53 NC 2113 1500 84 1584 230 383 75 T 2113 1500 84 1584 230 383 75
Veenavanka C 2914 1364 46 1410 185 1365 48
54 NC 299 246 11 257 28 25 86 T 3213 1610 57 1667 213 1390 52
Velagatur C 2879 1190 30 1220 130 1559 42
55 NC 0 0 0 0 0 0 0 T 2879 1190 30 1220 130 1559 42
Vemulawada C 0 0 0 0 0 0 0
56 NC 2475 1417 130 1547 261 797 63 T 2475 1417 130 1547 261 797 63
Yellareddypet C 0 0 0 0 0 0 0
57 NC 3308 1706 115 1821 195 1407 55 T 3308 1706 115 1821 195 1407 55
District Total
C 70967 27470 2386 29856 5797
37700 42
NC 74908 37065 2699 39764 7158
30959 53
T 145875 64535 5085 69620 12955
68659 48
C-Command; NC-Non-command; T-Total 6.0 GROUND WATER QUALITY
The ground water in the district in general is suitable for both domestic and irrigation
purpose. The totals of 23 ground water samples of shallow aquifer were analysed. In 22% of
samples Total Hardness values are beyond permissible limits. 26% of samples are beyond
permissible limits with respect to Bicarbonate, whereas about 78% samples falls beyond the
permissible limits, in case of Nitrates. This may be attributed to anthropogenic activities going on
thought the district. Fluoride is excess as per the BIS permissible limits at two places Viz.,
Peddapalli, Gollapalli areas. The distribution of Electrical Conductivity is shown as Fig.7.
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Fig. 7: Distribution of Electrical Conductivity in Ground water- Karimnagar District
7.0 STATUS OF GROUND WATER DEVELOPMENT
Ground water development in the district is through bore well of 60 to 100 m depth in the
non-command areas and through dug wells and shallow bore wells in the command area. In the
sedimentary terrain ground water development is through deep tube wells tapping the Gondwana
sandstones. Alluvial aquifers are developed through filter point well of 10 to 20 depth. The district
is mainly dependant on ground water for its irrigation and domestic needs. Large diameter dug
wells piercing the weathered rock are existing in the area for irrigation purpose, they are either in
rectangular or circular shape. The sides of the rectangular wells are usually between 4 to 10 m,
similarly the diameter of the circular wells is between 6 to 10 m. The depth of the dug wells varies
from 6 to 15 m bgl in non-command areas and is less than 9 m in command area. Most of the
wells in the non-command dry up in summer. The wells have 1-2 m of water column and sustain
pumping by 5 HP motors for 2 to 5 hrs in two spells in a day. The yields of the wells vary from 40
to 150 m3/day during post monsoon period. The fractured aquifers are tapped by bore wells of 100
to 159 mm dia with a depth range of 60 to 100 m bgl in general. The discharge of the bore wells
varies from 1 to 18 m3/hr for draw down of 4 to 10 m.
8.0 GROUND WATER MANAGEMENT STRATEGY
The ground water management strategy should be such that there is optimal utilisation of
ground water resource and it should also take into consideration the well spacing norms. Based on
the well spacing of 250 m on an average for shallow bore wells in hard rocks and sedimentary
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rocks, the optimal well density per sq.km comes to 16, whereas presently the well density in the
district is 20 per sq. km leaving little scope for further development of the ground water (Table 5).
A perusal of the table shows that the well density is lowest in Mutharam and Elgaid mandals 1
well/sq. km, and is highest in Husnabad mandal 59 wells/sq. km. Based on the above norm ground
water development is only possible in 17 mandals of the district out of which 15 mandals are
falling in sedimentary terrain or command area and two mandals Yellareddipet and
Ghambhiraopet are already categorised as critical mandals hence no further development is
possible.
The district is having considerable command area spread over 33 mandals and the entire
command area is falling under safe category. Ground water development is the command area
through construction of dug wells/bore wells may be taken up for utilisation of ground water
resource available and use it in conjunction with surface water to increase the irrigation potential.
In the non-command area particularly in hard rock areas it is necessary to augment the ground
water resource by taking up artificial recharge to ground water on a large scale to sustain the
existing ground water extraction structures. Further construction of bore wells needs to be
stopped.
9.0 GROUND WATER DEVELOPMENT
Ground water development should be restricted to the command area and sedimentary
terrain. In command area dug wells of 10 to 15 m depth having a radius of 5 m may be constructed
in areas having water levels below 5 m bgl or shallow bore wells of 165 mm dia up to a depth of
40 m may be constructed. The selection of bore well sites should be done based on the
geophysical and hydrogeological studies. The unit cost of each dug well will be around Rs 44,500
and that of bore well Rs 12,500 to 15000 (Source NABARD). Deeper aquifer in the Gondwana
formations has good potential, which can be developed by deep tube wells up to a depth of 200 to
300 m bgl. Tube wells with 254 mm housing, 152 mm casing with slotted pipes again the
productive aquifer zones may be constructed. The selection of bore well sites should be done
based on the geophysical and hydrogeological studies. The tube well construction and
maintenance may be taken up by Government agencies and irrigation may be taken up on co-
operative basis. The approximate cost of each tube well will be between 2 to 2.5 lakhs as per
market rate.
10.0 WATER CONSERVATION & ARTIFICIAL RECHARGE
Ground water conservation and artificial recharge works have been taken up on a large
scale in the district., Water shed, RIDF and other programmes. So far 257 numbers of structures
have been constructed. The structures constructed under these schemes are percolation tanks,
check dams and farm ponds. Apart from these structures, contour trenching has been done by the
Forest department in number of places. Artificial recharge works in the district should be taken up
in non-command hard rock area to get the maximum benefit (Fig-9). Artificial recharge works
should be avoided in command area and sedimentary terrain. The most ideally suited artificial
recharge structure in the area is the percolation tank. Apart from this check dams/gully plugs may
be taken up where the slope is considerable. All the works have to be taken up on water shed basis
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and after careful assessment of the available surface run off and after meeting the needs of the
existing structures. Rooftop harvesting both in urban and rural areas should be made mandatory to
enhance the ground water recharge.
11.0 RECOMMENDATIONS
1. The distress deaths by farmers are spread uniformly in the entire district both in command and
non-command areas and irrespective of stage of ground water development. The reasons for
farmers suicide are many, the first is related to crop failure due to high input costs, wrong
selection of crops, spurious seeds, market rate fluctuation for farm produce etc leading to crop
failure and accumulated loans. The problem needs to be addressed by Governmental interference
by way of subsidies, market regulation, timely advise regarding suitable cropping pattern taking in
to consideration the soil suitability, water availability and anticipated market demand. Awareness
has to develop regarding the need for adopting less water intensive and less cost intensive
cropping pattern even if the profits are not high but assured.
2. The second is related to socio-medical reason particularly in families having migratory
labourers. In such cases proper awareness has to be created regarding use of protective methods
while having relationship with unknown partners and the others way of transmission of the
decease. This problem is reported to be frequent in some parts of the district as the migratory
population is quite high.
3. The third is failure of bore wells due to the vagaries of monsoon and scanty rainfall and over
development leading to deepening of water levels and further investments in new bores where the
rate of failure of wells is high. Further construction of very deep bores beyond 80-100 m in hard
rocks where the success rate is very limited leads to high cost investments and loan burdens.
4. The strategies for ground water management have to be different for different areas in the
district. In Command area conjunctive use practice has to be adopted by developing ground water
through dug wells/shallow bore wells and using it in conjunction with surface water to increase
the irrigation potential with in the command area. In sedimentary terrain, the tube wells of 200 –
300 m depth are constructed to tap the potential Gondwana sandstone. As the cost of the tube
wells is quite high the development has to be undertaken by Government agencies and co-
operative farming adopted by involving the stakeholders. In non-command and over exploited
areas large scale artificial recharge needs to be encouraged on watershed basis. Care has to be
taken in assessing the source water availability and the needs of the existing structures. Site
selection need to be done on scientific lines. Annual maintenance of the artificial recharge
structure is very essential for its effective functioning. A corpus fund has to be created for the
maintenance of the structure at the time of construction from the cost of the structure or
contribution from the beneficiaries. Involvement of the stakeholders in the maintenance of the
structure has to be made mandatory.
5. Exploring the possibility of diversion of surface water for filling up of existing tanks
particularly in the over exploited mandals and non-command area may be taken up as rainfall
alone may not be sufficient to fulfil the needs of artificial recharge and to mitigate the problem of
drying of wells.